bottom log interval

简明释义

测量井段底部深度;

英英释义

例句

1.The software provides detailed insights into the bottom log interval for better decision-making.

该软件提供了关于底部测井区间的详细见解，以便更好地做出决策。

2.The geologist analyzed the data from the bottom log interval to determine the rock formation characteristics.

地质学家分析了来自底部测井区间的数据，以确定岩石形成特征。

3.During the drilling process, we encountered unexpected changes in the bottom log interval readings.

在钻探过程中，我们遇到了底部测井区间读数的意外变化。

4.The bottom log interval is critical for understanding reservoir properties in oil exploration.

底部测井区间对于了解石油勘探中的储层特性至关重要。

5.We adjusted our drilling strategy based on the findings from the bottom log interval analysis.

我们根据对底部测井区间分析的结果调整了钻探策略。

作文

In the field of geology and petroleum engineering, the term bottom log interval refers to a specific section of data collected from a wellbore during drilling operations. This section typically contains crucial information about the geological formations encountered at the deepest part of the well. Understanding the bottom log interval is essential for several reasons. First, it provides insights into the composition and characteristics of the rock layers, which can influence decisions regarding resource extraction. For instance, if the bottom log interval reveals the presence of hydrocarbons, engineers might decide to invest further resources into that well. Second, this interval can indicate the presence of water or other non-productive zones, which could lead to adjustments in drilling strategies. Therefore, accurate interpretation of the bottom log interval is vital for optimizing drilling performance and ensuring economic feasibility.The data collected in the bottom log interval usually includes measurements such as resistivity, porosity, and density. These parameters help geologists and engineers to build a comprehensive model of the subsurface environment. For example, resistivity logs can indicate the presence of oil or gas, while porosity logs provide information about how much fluid the rock can store. By analyzing these logs, professionals can make informed predictions about the potential yield of a well.Moreover, the bottom log interval can also serve as a reference point for future drilling operations. As new wells are drilled in the vicinity, the data from the bottom log interval of previously drilled wells can guide the placement of new wells, helping to avoid areas that have already been explored or that are deemed unproductive. This not only saves time and resources but also minimizes the environmental impact of drilling activities.In addition to its practical applications, the bottom log interval holds significant scientific value. Researchers use the data obtained from this interval to study geological formations and understand the historical processes that shaped them. By examining the characteristics of the rocks and the fluids they contain, scientists can gain insights into past climate conditions and geological events. This knowledge contributes to our overall understanding of Earth’s history and can inform future exploration efforts.In conclusion, the bottom log interval is a critical component in the fields of geology and petroleum engineering. It provides essential data that influences drilling decisions, enhances resource extraction efficiency, and contributes to scientific research. As technology advances, the methods used to analyze the bottom log interval will continue to improve, leading to even greater insights into the Earth’s subsurface. Understanding this concept is not only important for professionals in the field but also for anyone interested in the intricate relationship between geology and resource management.

在地质学和石油工程领域，术语底部录井间隔指的是在钻井作业过程中从井眼收集的特定数据段。该段通常包含有关在井的最深处遇到的地质层的重要信息。理解底部录井间隔至关重要，原因有几个。首先，它提供了有关岩层组成和特征的见解，这可能会影响资源开采的决策。例如，如果底部录井间隔显示存在碳氢化合物，工程师可能会决定进一步投资于该井。其次，该间隔可以指示水或其他非生产区的存在，这可能导致钻井策略的调整。因此，准确解释底部录井间隔对于优化钻井性能和确保经济可行性至关重要。在底部录井间隔中收集的数据通常包括电阻率、孔隙度和密度等测量值。这些参数帮助地质学家和工程师建立地下环境的全面模型。例如，电阻率录井可以指示油气的存在，而孔隙度录井则提供有关岩石能储存多少流体的信息。通过分析这些录井，专业人员可以对井的潜在产量做出明智的预测。此外，底部录井间隔还可以作为未来钻井作业的参考点。当在附近钻新的井时，先前钻井的底部录井间隔的数据可以指导新井的放置，帮助避免已经探索过或被认为无生产性的区域。这不仅节省了时间和资源，还最小化了钻井活动对环境的影响。除了其实际应用外，底部录井间隔还具有重要的科学价值。研究人员利用从该间隔获得的数据研究地质构造，并了解塑造它们的历史过程。通过检查岩石及其所含流体的特征，科学家可以获得有关过去气候条件和地质事件的见解。这些知识有助于我们整体了解地球的历史，并可以为未来的勘探工作提供信息。总之，底部录井间隔是地质学和石油工程领域的关键组成部分。它提供了影响钻井决策、提高资源开采效率和促进科学研究的基本数据。随着技术的进步，用于分析底部录井间隔的方法将继续改进，从而对地球的地下环境提供更大的洞察力。理解这一概念不仅对该领域的专业人士重要，对任何对地质学与资源管理之间复杂关系感兴趣的人也是如此。